M Naveen
National Institute of Technology (NIT), Warangal
M Naveen has created this Calculator and 100+ more calculators!
Mridul Sharma
Indian Institute of Information Technology (IIIT), Bhopal
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11 Other formulas that you can solve using the same Inputs

Work done per minute for rope brake dynamometer
Work done per minute=(Dead load-Spring balance reading)*pi*(Diameter of the wheel+diameter of rope)* Speed of the shaft in rpm GO
Brake power of the engine for rope brake dynamometer
Brake power=((Dead load-Spring balance reading)*pi*(Diameter of the wheel+diameter of rope)* Speed of the shaft in rpm)/60 GO
Brake power of the engine if diameter of rope is neglected for rope brake dynamometer
Brake power=((Dead load-Spring balance reading)*pi*Diameter of the wheel* Speed of the shaft in rpm)/60 GO
Work done per revolution for rope brake dynamometer
Work =(Dead load-Spring balance reading)*pi*(Diameter of the wheel+diameter of rope) GO
Thrust of structure
Compressive thrust=(Live load+Dead load)*Span for the wall radius/2 GO
Unit Generated
Unit Generated Per Annum=Maximum Demand*Load Factor*8760 GO
Basic Load Effect when Ultimate Strength is Given for Unapplied Wind and Earthquake Loads
Dead load=(Ultimate strength-(1.7*Live load))/(1.4) GO
Ultimate Strength when Wind and Earthquake Loads are not Applied
Ultimate strength=(1.4*Dead load)+(1.7*Live load) GO
Loaded Volume of Soil when Original Volume of Soil is Given
Loaded volume=(Original volume /Load Factor) GO
design pressure(Pv) if the height of cover is less than one pipe diameter
Design pressure=Dead load+Live load+Impact GO
Netload on the brake for rope brake dynamometer
Force=(Dead load-Spring balance reading) GO

3 Other formulas that calculate the same Output

Design pressure(Pv) when compressive thrust is given
Design pressure=Compressive thrust/Radius 1 GO
design pressure(Pv) if the height of cover is less than one pipe diameter
Design pressure=Dead load+Live load+Impact GO
design pressure(Pv) acting on the steel
Design pressure=0.86*Force GO

design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter Formula

Design pressure=Load Factor*(Dead load+Live load+Impact)
P<sub>v</sub>=LF*(W+L+I<sub>)
More formulas
design pressure(Pv) acting on the steel GO
design pressure(Pv) if the height of cover is less than one pipe diameter GO
Total load when design pressure(Pv) is given GO
Compressive thrust on the conduit wall GO
Design pressure(Pv) when compressive thrust is given GO
Compressive thrust when axial load is given GO
The ultimate wall stress when the ratio D/r does not exceed 294 GO
The ultimate wall stress when the ratio D/r r exceeds 294 but not 500 GO
The ultimate wall stress when the ratio D/r is more than 500 GO
Design stress when saftey factor 2 is applied. GO
Required wall area of width when allowable stress is given GO
Flexibilty factor limits GO
Metal thickness when flexibility factor is given GO

How to calculate the design pressure?

The design pressure when the height of cover is equal to, or greater than, one pipe diameter can be calculated by considering load factor.

How to Calculate design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter?

design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter calculator uses Design pressure=Load Factor*(Dead load+Live load+Impact) to calculate the Design pressure, The design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter can be defined as the excess pressure of the working medium, on which the strength design of the steel. Design pressure and is denoted by Pv symbol.

How to calculate design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter using this online calculator? To use this online calculator for design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter, enter Load Factor (LF), Dead load (W), Live load (L) and Impact (I and hit the calculate button. Here is how the design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter calculation can be explained with given input values -> 2.500501 = 0.1*(10+5000+25000000).

FAQ

What is design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter?
The design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter can be defined as the excess pressure of the working medium, on which the strength design of the steel and is represented as Pv=LF*(W+L+I or Design pressure=Load Factor*(Dead load+Live load+Impact). Load Factor is the ratio of average load to the maximum demand during a given period, Dead load includes loads that are relatively constant over time, Live load are variable as they depend on usage and capacity and Impact is an effect when load load is acting on a member.
How to calculate design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter?
The design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter can be defined as the excess pressure of the working medium, on which the strength design of the steel is calculated using Design pressure=Load Factor*(Dead load+Live load+Impact). To calculate design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter, you need Load Factor (LF), Dead load (W), Live load (L) and Impact (I. With our tool, you need to enter the respective value for Load Factor, Dead load, Live load and Impact and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Design pressure?
In this formula, Design pressure uses Load Factor, Dead load, Live load and Impact. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Design pressure=0.86*Force
  • Design pressure=Dead load+Live load+Impact
  • Design pressure=Compressive thrust/Radius 1
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